Polynomial Compilers#

AUTHORS:

Tom Boothby, initial design & implementation
Robert Bradshaw, bug fixes / suggested & assisted with significant design improvements

class sage.rings.polynomial.polynomial_compiled.CompiledPolynomialFunction#

Bases: object

Builds a reasonably optimized directed acyclic graph representation for a given polynomial. A CompiledPolynomialFunction is callable from python, though it is a little faster to call the eval function from pyrex.

This class is not intended to be called by a user, rather, it is intended to improve the performance of immutable polynomial objects.

Todo

Recursive calling
Faster casting of coefficients / argument
Multivariate polynomials
Cython implementation of Pippenger’s Algorithm that doesn’t depend heavily upon dicts.
Computation of parameter sequence suggested by Pippenger
Univariate exponentiation can use Brauer’s method to improve extremely sparse polynomials of very high degree

class sage.rings.polynomial.polynomial_compiled.abc_pd#: Bases: binary_pd

class sage.rings.polynomial.polynomial_compiled.add_pd#: Bases: binary_pd

class sage.rings.polynomial.polynomial_compiled.binary_pd#: Bases: generic_pd

class sage.rings.polynomial.polynomial_compiled.coeff_pd#: Bases: generic_pd

class sage.rings.polynomial.polynomial_compiled.dummy_pd#: Bases: generic_pd

class sage.rings.polynomial.polynomial_compiled.generic_pd#: Bases: object

class sage.rings.polynomial.polynomial_compiled.mul_pd#: Bases: binary_pd

class sage.rings.polynomial.polynomial_compiled.pow_pd#: Bases: unary_pd

class sage.rings.polynomial.polynomial_compiled.sqr_pd#: Bases: unary_pd

class sage.rings.polynomial.polynomial_compiled.unary_pd#: Bases: generic_pd

class sage.rings.polynomial.polynomial_compiled.univar_pd#: Bases: generic_pd

class sage.rings.polynomial.polynomial_compiled.var_pd#: Bases: generic_pd